Wall mountable holder

ABSTRACT

In one aspect, a holder assembly includes a substrate-mountable holder having a metal base having a centerline, the base having a plurality of openings to receive a plurality of fasteners, a generally symmetrical wireform having a pair of legs with a portion therebetween, the portion welded to the base, each leg having a first segment extending parallel to the base and a second segment extending outwardly of the base. First segment of each leg may be generally parallel to the centerline, or first segment may be angled with respect to the centerline. Second segment of legs may extend generally linearly outwardly of the base or may have radii of curvature.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention is directed to a wall mountable holder, commonly a garage hook, mountable in a friable substrate such as drywall, for holding an object such as a household or garden item, e.g., a tool such as a spade.

2. Description of the Related Art

Garage hooks typically are wire-like with a drywall penetrating end that is straight, pointed, and typically threaded like a screw for driving into drywall and sometimes a stud. An opposite end usually forms one of a variety of configurations of hooks. Driving the garage hook commonly is accomplished by gripping and turning the hook end to drive the point and the threads into the drywall.

Anyone who has attempted to install wire-like garage hooks knows that it is easier said than done. A firm, steady, axial, pushing-while-rotating force is needed, and driving typically is stuttered and wobbly. If the user hits a stud squarely, great effort and skill are required to force the point and the threads into the stud, which may cause the threads to strip out the soft, friable drywall, often resulting in an unsightly and uncertain installation. More commonly, the user does not hit a stud, and the installation may look sound but is actually wobbly and loose. Moreover, screw-like threads have little pullout strength in drywall alone and can easily strip out the drywall during installation. In use, the garage hook may turn, particularly after repeated loading, unloading and bumps, causing the garage hook to loosen, fall or dump its load from the wall, resulting in damage to the load, the wall, or other garaged property, such as a car.

For additional pullout strength, some garage hooks, see, e.g., U.S. Pat. No. 6,676,350 to McSherry, rely on large drywall-anchor-like threads. Such garage hooks sometimes require pre-drilling and are often defeated if they hit a stud. Although garage hooks with drywall threads provide higher pullout strength in drywall than screw-like threads, they still usually can only hold objects of light to moderate weight.

Pre-drilling into studs or wood may be considered for many kinds of garage hooks, however, in each case, additional planning, tools and time are required. For example, some garage hooks require one or more screws to be driven, but unless pilot holes are positioned, sized and pre-drilled with great care, efforts to drive screws can result in stripping of the drywall.

Illinois Tool Works Inc., assignee of this application, has made many advances in drywall anchors. An anchor sold under the trademark E-Z ANCOR, see commonly assigned U.S. Pat. No. 4,601,625, is a self-drilling drywall anchor. Another anchor, sold under the trademark STUD SOLVER, see commonly assigned U.S. patent application Ser. No. 60/510,708, is a self-drilling drywall anchor capable of penetrating studs. Illinois Tool Works Inc. has made further advances in garage hook technology, including the hooks in the commonly assigned U.S. patent application Ser. No. 11/148,159. These hooks, often made of a unitary structure comprising a base and one or more legs and one or more self-drywall anchors, exhibit high holding strength in dry wall.

What is needed is a holder mountable to a friable substrate that may be easily installed for increased pullout resistance and load capacity.

BRIEF SUMMARY OF THE INVENTION

In one aspect of the invention, a substrate-mountable holder may comprise a metal base having a centerline, the base having a plurality of openings to receive a plurality of fasteners; a generally symmetrical wireform having a pair of legs with a portion therebetween, the portion welded to the base, each leg having a first segment extending parallel to the base and a second segment extending outwardly of the base. Additionally, each of the legs may have an upturned end.

In other aspects of the invention, the first segment of each leg may extend generally parallel to the centerline, or the first segment of each leg may be angled with respect to the centerline.

In further aspects of the invention, the second segment of each leg may extend generally linearly outwardly of the base, or the second segment may have a radius of curvature.

In still further aspects of the invention, the plurality of openings may be configured to receive drywall fasteners each having a crest diameter of at least about ¼ inch, the openings may be generally aligned with the centerline and the weld may be positioned between the plurality of openings, and the holder may have a second plurality of openings to receive a second plurality of fasteners.

In one aspect of the invention, a holder may include at least one self-drilling drywall fastener, a wall-contacting base plate having at least one opening for receiving one said self-drilling drywall fastener, and at least one leg for holding an object. The combination of the self-drilling drywall fastener and the base plate may provide increased pullout resistance and load capacity in a friable substrate. The opening may be sized for engaging a head of the drywall fastener to seat the drywall fastener.

In another aspect of the invention, a holder may include at least one self-drilling drywall fastener having a drilling portion longer than a drywall thickness followed by a high-threaded portion for engaging the friable substrate, a wall contacting base plate having at least one opening for receiving one said self-drilling drywall fastener, and at least one leg for holding an object. In this configuration, the drilling portion may bore a pilot hole entirely through the drywall before the high threads begin to engage the drywall. The high-threaded portion also may be longer than the drywall thickness, so that the high threads may engage the rear drywall surface and add further to the pullout resistance and load capacity.

In still another aspect of the invention, a holder may include at least one self-drilling drywall fastener having a screw-like distal portion longer than a drywall thickness followed by a high-threaded drywall-engaging portion and a head having a recess for receiving a rotary driver, a wall contacting base plate having a pair of openings each capable of receiving one said self-drilling drywall fastener, and at least one leg for holding an object. In this configuration, if a stud is encountered, the screw-like drilling portion may self-drill into the stud. The at least one leg and pair of base plate openings may be aligned for increased pullout resistance and load capacity.

These and other features and advantages are evident from the following description of the present invention, with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 is a perspective view of a holder mountable to a variety of substrates for holding an object.

FIG. 2 is a top plan view of the holder of FIG. 1.

FIG. 3 is an elevation view of the holder.

FIG. 4 is a side view of the holder.

FIG. 5 is a perspective view of another embodiment of a holder mountable to a variety of substrates for holding an object.

FIG. 6 is a top plan view of the holder of FIG. 5.

FIG. 7 is an elevation view of the holder.

FIG. 8 is a side view of the holder.

FIG. 9 is a perspective view of another embodiment of a holder mountable to a variety of substrates for holding an object.

FIG. 10 is a top plan view of the holder of FIG. 9.

FIG. 11 is an elevation view of the holder.

FIG. 12 is a side view of the holder.

FIG. 13 is a perspective view of another embodiment of a holder mountable to a variety of substrates for holding an object.

FIG. 14 is a top plan view of the holder of FIG. 13.

FIG. 15 is an elevation view of the holder.

FIG. 16 is a side view of the holder.

FIG. 17 is a perspective view of another embodiment of a holder mountable to a variety of substrates for holding an object.

FIG. 18 is a top plan view of the holder of FIG. 17.

FIG. 19 is an elevation view of the holder.

FIG. 20 is a side view of the holder.

FIG. 21 is a perspective view of a drywall type fastener.

FIG. 22 is elevation view of the drywall type fastener of FIG. 21.

DETAILED DESCRIPTION

Referring to FIGS. 1-4, a holder 10 includes a flat, generally planar, generally oval or “surfboard-shaped” metal flange or base plate 26 having at least one and, as shown, a pair of openings 30, each capable of receiving an drywall fastener 24 (see FIGS. 21 and 22). Holder 10 may further include a generally symmetrical wireform having a predetermined shape and having a pair of legs 28 with a portion 91 therebetween. At least one and potentially two or more legs 28 extend from base plate 26 to the other side of center (e.g., below) for holding an object. Leg(s) 28 and drywall fasteners 24 spaced to either side of the center of the flange or base plate provide for higher overall pullout resistance and load capacity for holder 10.

Returning to FIGS. 1-4, base plate 26 may be made of sheet metal and may have a thickness between about 10 gauge and about 20 gauge, preferably between about 14 gauge and about 18 gauge, more preferably about 16 gauge. Base plate 26 may be stamped from sheet metal in a generally oval shape that may be between about 2 inches and about 5 inches tall from a top 38 to a bottom 39, preferably between about 3 inches and about 4 inches tall, more preferably about 3 inches tall. Base plate may also be between about 1 inch and about 3 inches wide, preferably between about 1 inch and about 2 inches wide, and in one embodiment, about 1½ inch wide.

Base plate 26 may further have a plurality of first openings 30 and a plurality of second openings 31 stamped out of plate. First openings 30 may be sized to accommodate high-threaded drywall fasteners and may have a diameter between about ¼ inch and about ¾ inch, preferably between about ¼ inch and about ½ inch, and, in one embodiment, about 0.46 inch. Second openings 31 may be sized to accommodate nails, wood fasteners or masonry fasteners and may have a diameter between about ⅛ inch and about ¼ inch, and, in one embodiment, about 0.2 inch. First openings 30 and second openings 31 may be substantially symmetrically formed about center of base plate 26 such that center of first openings may be between about ⅓ inch and about 1 inch from top or bottom of base plate 26, respectively, preferably between about ½ inch and about ¾ inch, still more preferably about ⅝ inch. Center of second openings may be between about 1/16 inch and about ¼ inch from top or bottom of base plate 24, respectively, preferably between ⅛ and about ¼, still more preferably about 3/16 inch.

Holder 10 is mountable to a friable substrate such as drywall and is used for holding, typically hanging, an object (not shown), such as a tool, a ladder, a broom, a spade, a bicycle, or other objects on a friable substrate such as drywall. Holder 10 allows a user to select a position anywhere on drywall that is feasible to place the object desired to be held. Holder 10 may be used for holding tools or other objects on interior or exterior friable substrates of a residential home and is particularly useful for hanging tools or other objects from a wall or ceiling within a garage; therefore, holder 10 will be described and shown as a garage hook. However, holder 10 may be equally usable in other applications.

The friable substrate may be one of several materials used in construction, such as stucco, plaster, or gypsum based drywall sold under the trademark SHEETROCK by United States Gypsum. Drywall typically has a thickness T of about ½ inch or about ⅝ inch, but it may be obtained in other thicknesses, such as about ⅜ inch. Typically, friable substrates such as drywall are mounted to support studs, such as wood support studs, for example 2×4 studs or the like, evenly spaced apart, e.g. every 16 inches, or metal support studs, such as steel support studs. Studs are substantially more resistant to pullout than drywall because they are less friable and much less likely to break apart.

Fasteners 24 anchor and also rotationally lock holder 10 in place to prevent rotation and loosening of holder 10. Openings 30 may be positioned with at least one opening generally vertically above center and above leg(s) 28 and at least one opening generally vertically below center and below leg(s) 28, as shown in FIG. 1, so that the pullout strength acts to prevent holder 10 from pivoting outwardly away from drywall. Installing holder 10 with at least one drywall fastener 24 positioned above center with drywall fastener threads 32 engaged in drywall increases the shear load holder 10 can withstand. Two openings 30 for receiving drywall fasteners are included in base plate 26, as shown in FIG. 1. In addition, base plate 26 may have two secondary openings 31 for receiving fasteners that enable base plate 26 to be mounted to a variety of surfaces.

The base plate 26 also may have a rearwardly projecting tang 33, which may puncture the paper surface of the drywall and extend a short distance into the drywall to pre-position the holder on the drywall surface for fastener insertion, and, upon installation, to further enhance the shear load capacity of the installed holder. Tang 33 may be triangularly shaped and may be between about ⅛ inch and about ½ inch long, preferably between about ¼ inch and about ½ inch long, and in one embodiment, about 0.35 inch long. Tang 33 may also be between about 0 inches and about ¼ inch wide, preferably about ⅛ inch wide. Base plate 26 may be stamped to form a generally rectangular opening 35. Material removed in making generally rectangular opening 35 may not be completely separated from base plate 26, and tang 33 may be formed from removed material. Tang 33 may be formed at an upper end 36 of opening or at a lower end 37.

Referring to FIGS. 21 and 22, each drywall fastener 24 includes a head 25 having a recess 64, such as the Phillips recess 64 shown in FIG. 21, for receiving a rotary driver (not shown) so that holder 10 may be installed with a driving tool, such as a screwdriver or a drill with a screwdriver bit. Recess 64 includes one or more torque transmitting surfaces 65 so that torque may be transmitted from the rotary driver to rotate drywall fastener 24 in order to drive drywall fastener 24 through the drywall.

Returning to FIGS. 1-4, holder 10 may further comprise a generally symmetrical wireform 90 having a pair of legs 28 with a portion 91 therebetween. Wireform 90 may be welded to base 26 wherever wireform 90 contacts base 26. Preferably, portion has a welded length between about ½ inch and about 1½ to secure wireform 90 to base 26. Each leg may have a first segment 92 extending generally parallel to the base 26 and a second segment 93 extending outwardly of the base 26.

One or more legs 28 extend from base plate 26, providing a place to hang an object. Legs 28 may come in many configurations, including straight legs, J-shaped legs, C-shaped legs, bicycle hooks, ladder hooks, tool hooks, coat or hat hooks, or a U-shaped pair of legs 28. Each leg 28 may extend axially out from base plate 26, but, preferably, legs 28 may extend laterally along an outer surface of the drywall before extending away from base plate 26.

Continuing with FIGS. 1-4, in one embodiment, a pair of legs 28 forms a U-shape when viewed from above. A U-shaped holder 10 may be particularly useful for holding long handled objects, such as a spade or broom, so that the handle fits between legs 28 and the spade blade or the broom head rests on legs 28. Legs 28 are diametrically opposed, symmetrical about an axis 18, and may extend downward and along wall before bending to form a distal portion 70 that extends substantially perpendicular to base plate 26 so that legs 28 may be positioned so they are level and parallel with the floor. Legs 28 may form an angle between about 0 degrees and about 45 degrees with respect to a centerline of base plate 26, preferably between about 10 degrees and about 35 degrees, still more preferably between about 15 degrees and about 25 degrees and in the embodiment shown in FIGS. 1-4, about 20 degrees. Each leg 28 may have an enlarged foot 72 or an upturned end 73 at distal portion 70, at a distal end of leg 28 to prevent the object from sliding off or tipping over the end of legs 28. Upturned end may have a height between about ¼ inch and about 1 inch, preferably between about ½ inch and about ¾ inch and, in one embodiment, about ⅝ inch.

It may be desirable that the spacing LS between legs 28 be large enough so that a typical handle of a broom or spade, i.e. a cylindrical handle having a diameter of between about 1 inch and about 1½ inches, will fit between legs 28. An inner edge of each foot 72 or upturned end 73 may protrude inwardly toward the other leg 28 so that the spacing FS between feet 72 may be smaller than spacing LS between legs 28. Upturned end 73 may alternatively protrude generally vertically so that FS and LS are substantially equivalent. The foot may also extend upwardly from leg 28 to provide a stop to prevent a tool, such as a spade, from sliding between feet 72. Upturned end 72 may be angled between about 70 degrees and about 130 degrees with respect to distal portion 70, preferably between about 90 degrees and about 110 degrees, still more preferably about 100 degrees. Legs 28 and upturned end 73 may also be coated with a durable plastic material such as plastisol.

The spacing FS and LS between feet 72 and legs 28 may be large enough, and base plate 26 is long enough so that the nose of a drill will fit between feet 72 and legs 28 so that a user may use a typical cordless drill adapted with a screwdriver bit to engage recess 64 and rotate each drywall fastener 24 to drive each drywall fastener 24 through a hole 30 into the drywall.

In one embodiment, such as the one shown in FIGS. 1-4, the spacing LS between the pair of legs 28 may be between about 1½ inches and about 3 inches, preferably between about 2 inches and about 2½ inches, still more preferably about 2.2 inches.

Each side of distal portion 70 of each leg 28 may include upper and lower flat surfaces 78 which may be generally parallel to the common plane of legs 28 so that when legs 28 are level, an object laid across flat surfaces 78 will also be level. Legs 28 may also include one or more grooves 80 (not shown) formed in each leg 28 so that an object may rest within the grooves 80. For example, an object having a thin portion that will be laying on legs 28, i.e. the blade of a shovel or spade, may be hung off legs 28 so that the thin portion rests in grooves 80 to prevent the spade from rolling or sliding along legs 28.

Legs 28 and upturned ends 73 may be symmetrical, as best shown in FIGS. 1 and 3. In addition, in FIGS. 1 and 3, when legs 28 are positioned so that they are level, openings 30 may be positioned so that they are generally centered vertically on axis 18. Legs 28 may extend in a plane generally parallel to mounting surface and may also angle away from axis 6. Angled first segment 92 of legs 28 may be between about 1 inch and about 4 inches long, preferably between about 2 inches and about 3 inches long, more preferably between about 2¼ inch and about 2¾ inch long, and in one embodiment, about 2.4 inches long.

Legs 28 may bend from angled first segments 92 to extending second segments 93 that may be generally perpendicular to mounting surface. Second segments 93 may spaced vertically from center of upper opening 30 by between about 2 inches and about 5 inches, preferably between about 2½ inches and about 4½ inches, still more preferably between about 3 inches and about 4 inches, and in one embodiment, about 3¾ inches. Second segments 93 may have a length from first segments 92 to upturned ends 73 between about 1 inch and about 8 inches, preferably between about 2 inches and about 5 inches, and in one embodiment, about 2¼ inches.

As seen in FIGS. 1-4, legs 28 may be made of a strong material that is workable enough to bend into the desired configuration, but resilient enough to resist deformation upon loading. Preferably, legs 28 are made of wireform 90 having a diameter of between about ⅛ inch and about ½ inch, preferably between about ⅛ inch and ⅜ inch, still more preferably about ¼ inch. Wireform 90 may be metal, preferably cold-rolled steel such as 1010 or 1020 steel.

Holder 10 may not be a unitary structure, but may comprise base plate 26 and leg(s) 28 operatively connected to base plate 26. Connection should be strong enough to keep legs 28 affixed to base plate 26 under loading conditions. Connection may comprise a fastener through legs 28 and base plate. Connection may also comprise forming a recess on a rear surface of base and locating legs 28 between mounting surface and base when installing. Preferably, connection is a weld. Several types of welds may be used, including spot welds. More preferably, however, connection is a fillet weld. Fillet weld may be between about ⅙ inch and about ⅜ inch, preferably about ⅛ inch. In addition, fillet weld may extend substantially around a perimeter defining the contact between base plate 26 and legs 28.

As seen in FIG. 1-4, legs 28 may be operatively connected to base plate 26 below center of base plate 26. Legs 28 may also cover generally rectangular opening 35 from which tang 33 was stamped. Top of legs may be between about 1 inch and about 2 inches from top of base plate 26, preferably between about 1¼ inch and about 1¾ inch, and in one embodiment, about 1⅝ inch.

Referring to FIGS. 21 and 22, in one embodiment, self-drilling drywall fastener 24 has an enlarged head 25, an axis 27, a drilling portion 34 having a length longer than a thickness of the friable substrate or drywall and a high-threaded proximal portion 32 for engaging friable substrate or drywall. The threads 32 are sized to pass freely through the openings 30 in the base plate 26, while the head 25 engages the base plate 26 around the openings 30. The base plate 26 is substantially wider than a largest outside diameter of proximal portion 32.

Drywall fastener 24 may have a long unthreaded drilling portion 34 of the type sold under the trademark STUD SOLVER, see commonly assigned U.S. patent application Ser. No. 11/832,311 to Ernst, et al., the contents of which is incorporated herein by reference. Fastener 24 may be a self-drilling drywall fastener capable of penetrating studs, but preferably has the configuration shown in FIGS. 21 and 22. Because drywall fastener 24 is not an anchor and does not receive a fastener, drywall fastener 24 may be solid rather than hollow, allowing drywall fastener 24 to have a smaller root diameter while still providing the durability necessary to be driven into drywall and any stud which may be behind the drywall.

Second fasteners 23 may be smaller fasteners for installing holder 10 against a variety of substrates. Second fasteners 23 may have a crest diameter between about ⅛ inch and about ¼ inch, preferably about 3/16 inch. In one embodiment, second fasteners may be masonry fasteners of the type sold under the trademark TAPCON, see commonly assigned U.S. Pat. No. 6,296,433 to Forsell, et al., the contents of which is also incorporated herein by reference.

In another embodiment, FIGS. 5 through 8 show a long U hook, which is a similar holder 110 having similar base plate 126 and legs 128 that may extend a greater distance both down and outward from base plate 126 and further away from mounting surface.

In this embodiment, first segment 192 of legs 126 may form an angle of between about 5 degrees and about 25 degrees with respect to a centerline of base plate 26, preferably between about 5 degrees and about 20 degrees, more preferably about 15 degrees, and in one embodiment about 14 degrees. First segment 192 may have a length along mounting surface of between about 2 inches and about 4 inches, preferably between about 2½ inches and about 3½ inches, more preferably about between about 2¾ inches and about 3¼ inch, and in one embodiment about 3⅛ inches. In addition, second segments 193 may be located between about 3 inches and about 6 inches, preferably between about 4 inches and about 5 inches, more preferably between about 4½ inches from center of upper opening 130. Moreover, second segments 193 may have a length between about 2 inches and about 6 inches, preferably between about 3½ inches and about 5 inches, still more preferably between about 4½ inches and about 5 inches, and in one embodiment about 4.8 inches.

Upturned end 173 may be similar to that of the embodiment shown in FIGS. 1-4. However, as longer legs 126 may be used to support larger objects, upturned end 173 may be larger than that of the embodiment of FIGS. 1-4 to inhibit larger objects from sliding off or otherwise being inadvertently dislodged from legs 126. Upturned ends 173 may be between about ¼ inch and about 1½ inches, preferably between about ½ inch and about 1 inch, more preferably between about ⅝ inch and about ⅞ inch, and in one embodiment, about 11/16 inch.

In another embodiment, FIGS. 9 through 12 show an even longer U hook, which is a similar holder 210 having similar base plate 226 and legs 228 that may extend a greater distance both down and outward from base plate 226 and further away from mounting surface. Longer hook 210 may be referred to as a ladder hook because it may be sized to support steps or support(s) of a ladder for storage against a mounting surface.

In this embodiment, first segment 292 of legs 228 may form an angle of between about 3 degrees and about 15 degrees with respect to a centerline of base plate 26, preferably between about 5 degrees and about 10 degrees, more preferably about 7 degrees. First segment 292 may have a vertical distance of between about 3 inches and about 10 inches, preferably between about 4 inches and about 7 inches, more preferably about 5 inches from top of legs 228 to second segments 293. In addition, second segments 293 may be located between about 3½ inch and about 1½ inch, preferably between about 4½ inch and about 9 inches, more preferably between about 5 inches and about 6 inches, and in one embodiment about 5¾ inch from center of upper opening 230. Moreover, second segments 293 may have a length between about 4 inches and about 10 inches, preferably between about 6 inches and about 8 inches, still more preferably about 7 inches, and in one embodiment about 7⅛ inches.

Because legs 228 extend downward further than legs 28 of the embodiment of FIGS. 1-4, legs 228 may be spaced closer together while still enabling a drill having a driving attachment such as a Phillips driver to be used to install fasteners and/or secondary fasteners 24, 23. Legs 228 may be between about 1 inch and about 4 inches apart at a distal portion 270, preferably between about 1 inch and about 3 inches apart, still more preferably between about 1 inch and about 2 inches apart, and in one embodiment, about 1¾ inch. Moreover, as longer legs 228 may be used to support larger objects, upturned end 273 may be larger than that of the embodiment of FIGS. 1-4 to inhibit larger objects from sliding off or otherwise being inadvertently dislodged from legs 226. Upturned ends 273 may be between about ½ inch and about 2 inches, preferably between about ¾ inch and about 1½ inch, and in one embodiment, about 1⅛ inch.

FIGS. 13 through 16 show a similar holder 310, which, instead of a pair of legs 28 having generally flat surfaces 78 is provided with a pair of J hooks 328. The base plate 326 of the holder 310 is a similar flat, oval or surfboard-shaped element and is manufactured in a similar fashion as base plate 26. The base plate 326 may have a pair of through openings 330 for receiving drywall fasteners 24, a pair of second openings 331 and a tang 333 substantially identical to the openings 30, second openings 31 and tang 33 described above.

The J hook holder 310 may include a single, and generally J shaped leg 328. Preferably, however, holder 310 has a plurality of J shaped legs 328. As seen in FIG. 12, legs 328 may extend substantially vertically downward along base plate 326, transitioning to a second segment 393. Second segment 393 may begin at a location spaced from top of legs a predetermined distance of between about 1 inch and about 3 inches, preferably between about 1 inch and about 2 inches, more preferably between about 1½ inch and about 2 inches, and in one embodiment, about 1¾ inch. Second segment 392 may also begin at a predetermined position spaced downward from bottom of base plate 326 by between about 0 inches and about 2 inches, preferably between about 0 inches and about 1 inch, still more preferably between about 0 inches and ½ inch, and in one embodiment, about 0.2 inch. Moreover, second segment 393 may have an upper surface 396 upon which object may be rested. At its lowest position 397, upper surface 396 may be spaced between about 2 inches and about 6 inches from center of uppermost opening 330, preferably between about 3 inches and about 4 inches, still more preferably about 3¾ inch.

Second segment 393 of legs 328 may be substantially circular, ovoid or otherwise curved. In the embodiment shown in FIGS. 13-16, second segment 292 is substantially semi-circular, such that beginning proximate bend 394 and distal portion 370 of second segment 393 are spaced vertically substantially the same distance from bottom 339 of base plate 326. However, distal portion 370 may extend higher or lower than bend 394.

If second segment 393 is substantially circular, second segment 393 may further have an inner radius of curvature. Radius may be between about ½ inch and about 2 inches, preferably between about ¾ inch and about 1½ inch, still more preferably about 1 inch. In addition, if distal portion 270 extends higher than bend 394, distal portion 370 may straighten and point generally vertically upward or otherwise deviate from radius of curvature.

Staying with FIGS. 13-16, because J shaped legs 328 may not extend outward from base 326, legs 328 may be spaced closer together than legs in the embodiments of FIGS. 1-4 and 5-8. Legs 328 may be substantially symmetrical about centerline of base 326 and may be between about ¼ inch and about 2 inches at their narrowest, preferably between about ½ inch and about 1¼ inch, still more preferably between about ¼ inch and about 1 inch, and in one embodiment about ¾ inch.

In the same fashion as the U-hook type holder 10 described above, the legs or hook portions 328 of the J hook type holder 310 may be coated with a durable plastic material 395 and may be operatively engaged to base plate 326, for example, by welding legs 328 to base plate 326.

Referring to FIGS. 17 through 20, a second embodiment of a J-hook type holder is shown, and designated generally by reference numeral 410. The J hook 410 is generally configured similarly to the J hook type holder 310 described above, whereby like reference numerals with the prefix 4 are utilized to designate the like parts and components. The legs or hook portions 428 of the J hook type holder 410 are, however, longer than legs 328. Legs 428 may have an inner radius of curvature between about 1 inch and about 4 inches, preferably between about 1½ inch and about 3 inches, still more preferably about 2 inches. Legs 428 may extend outward from base between about 2½ inches and about 8 inches, preferably between about 3½ inches and about 6 inches, still more preferably between about 4 inches and about 5 inches, and in one embodiment about 4½ inches.

As legs 428 are longer than legs 328, second segments 493 may also begin nearer top portion 491 of legs 428 than legs 328. Bend 494 may be between about 1 inch and about 2 inches from portion 491, preferably between about 1¼ inch and about 1¾ inch, still more preferably about 1½ inch.

While legs 428 may be longer than legs 328 shown in FIGS. 9-12, legs 428 may be similarly spaced. In one embodiment, legs 428 may be spaced about ¾ inch apart at their narrowest.

Holders of the form in any of the embodiments described above may have a holding strength between about 50 lbs. and about 100 lbs. when installed in drywall using drywall fasteners as described below, which may be similar to holding strength of molded zinc holders using similar drywall fasteners. However, holders of the form described in the embodiments above may cost significantly less than molded zinc holders, i.e., between about ½ and about ⅔ a cost of molded holders. Holders of the form described in the embodiments above may also be easier to manufacture, relying on dies and eliminating the need for manufacturing and replacing molds. As such, holders may be referred to as economy hooks.

Drywall Fastener

In one embodiment, shown in FIGS. 21 and 22, self-drilling drywall fastener 24 has an axis 27, a screw-like drilling portion 34 longer than the thickness of drywall, a high-threaded drywall engaging proximal portion 32 and a head 25 having a tool receiving recess 64 for receiving a rotary driver.

Continuing with FIGS. 21 and 22, in one embodiment, self-drilling drywall fastener 24 includes a high-threaded proximal portion 32 having threading 20 with a crest diameter and a high thread height for engaging drywall, and threaded drilling portion 34 longer than a thickness of drywall and threading 50 with a crest diameter substantially smaller than the crest diameter of proximal portion 32 and a thread height substantially smaller than the thread height of proximal portion 32.

The crest diameter of threading 20 of proximal portion 32 may be about twice the root diameter of threading 50. In one embodiment, the crest diameter of threading 20 may be between about ¼ inch and about ¾ inch, for example about ½ inch, the root diameter at proximal portion 32 may be between about ⅛ inch and about ⅜ inch, and the thread height of threading 50 may be between about ⅛ inch and about ⅝ inch, for example about ¼ inch. The high-threaded proximal portion 32 may be slightly longer than drywall thickness so that high threading 20 is able to engage the paper on an inner drywall surface to add further to the pullout resistance and load capacity of holder 10 as well as to accommodate the seating of the head 25 on the base plate 26 around the hole 30.

In one embodiment, drywall gripping threading 20 may be one continuous generally helical thread and the root of proximal portion 32 expands tapers from drilling portion 34 toward proximal end so that drywall fastener 24 has enough strength to be driven into wood.

The screw-like drilling portion 34 with a length longer than drywall thickness allows drywall fastener 24 to bore a hole entirely through the drywall before high threading 20 on proximal portion 32 begins to engage the drywall. The screw-like smaller threading 50 of drilling portion 34 also allows drywall fastener 24 to be able to grip and drill into a stud if a user encounters a stud while installing holder 10 because the substantially smaller thread height and crest diameter of drilling portion 34 may be driven into a stud without excessive torque. In one embodiment, the crest diameter of threading 50 of drilling portion 34 is between about 1/16 inch and about ¼ inch, e.g., about ⅛ inch, and the thread height of threading 50 is between about 0.02 inch and about 0.07 inch, e.g., about 0.035 inch

Threading 50 may include a generally helical thread, as shown in FIG. 5, which may continue as thread 20 on proximal portion 32 so that there may be a continuous thread between drilling portion 34 and proximal portion 32. In one embodiment, drilling portion 34 may includes two generally helical threads arranged in a double helix to provide added support around drilling portion 34, to provide faster engagement of drywall fastener 24 with a stud, and to provide balanced driving into stud. The second thread of the double helix may be present for only a portion of drilling portion 34 proximate drilling end 24, or it may continue substantially through all of drilling portion 34 to provide improved grip with a stud.

Drywall fastener 24 may include a drill tip 46 at drilling end 24. In one embodiment, shown in FIG. 22, drill tip 46 is generally conical in shape and coaxial with axis 27 so that drill tip 46 comes to point at axis 27 to guide and quickly engage outer drywall surface 44 and the surface of a stud. In one embodiment, drilling portion 34 may include at least one wing 60, and as shown, a pair of wings 60, that protrudes radially outwardly from drilling portion 34 for reaming out drywall to form a hole having the desired size. Wings 60 are designed to break away when they hit a stud so that wings 60 ream out drywall and not a stud.

Method of Use

Each of the holders 10, 110, 210, 310, 410 may be used by a method including the steps of selecting a location on a wall or ceiling, positioning the holder against the wall or ceiling at the selected position, pressing on said base plate to cause said rearwardly projecting tang to puncture the surface of the drywall and extend a short distance into the drywall, aligning a first drywall fastener 24 with one of the openings, and rotating drywall fastener 24 in a clockwise direction so that drywall fastener 24 drills through the drywall, continuing to rotate drywall fastener 24 until a fastener head engages base plate. The method may also include the step of inserting another fastener 24 into the other opening, and driving the fastener 24 through the drywall until fastener head abuts base plate.

A user may select a position on the wall or ceiling without worrying about the location of a stud located behind drywall because of the configuration of external threading 20 and 50, which allows drywall fastener 24 to drill through drywall and a stud. This feature also allows a user to intentionally position the holder so that drywall fastener 24 does hit stud, because there may be greater hold between drywall fastener 24 and stud, i.e., because the stud or other support member may be less likely to break apart than drywall. The ability to position the holder virtually anywhere along a wall or ceiling allows a user to arrange a plurality of holders on the wall or ceiling for more efficient use of the space allowing a plurality of objects to be held while only needing to install holders using the mounting drywall fasteners 24 with a screwdriver or other rotary driver. The step of rotating drywall fasteners 24 may be accomplished by inserting a rotary driver into recess 64 and driving fasteners 24 with the rotary driver.

The holder of the present invention provides for the use of self-drilling drywall fasteners to increase the overall pullout resistance and load capacity of the holder. In one embodiment, the base plate engages the heads of the fasteners to meter and stop the fasteners so that the fasteners engage the drywall without stripping it out, increasing engagement between the fastener threads and the drywall. The holder also allows a user to hold an object at virtually any position on a surface of a wall or ceiling, even at a location where a support member may be behind the drywall.

In addition, the holder may be placed against a variety of surfaces such as wood studs or concrete/masonry walls and fasteners may be inserted through primary and/or secondary holes to mount holder in place.

Method of Making

A holder of the type described above, and comprising a base plate having at least one opening to receive an anchor, and at least one leg extending from said base plate for holding an object may be made by a method comprising the following steps. Stamping, cutting or otherwise forming base plate from a single piece of material such as sheet metal. Stamping, cutting or otherwise forming first holes, secondary holes and/or tang in base. Forming a rigid, yet non-brittle material such as wireform into a leg or pair of legs by bending wireform into a predetermined configuration. Mounting legs to base plate, preferably by welding legs to base plate, more preferably by fillet welding legs to base plate.

Fasteners may be made by providing a pair of molds having complementary mating cavities, together defining the fastener, feeding molten material into said cavity; setting said molten material to form said fastener; and removing said fastener from said mold.

While the foregoing written description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific exemplary embodiment and method herein. The invention should therefore not be limited by the above described embodiment and method, but by all embodiments and methods within the scope and spirit of the invention as claimed. 

1. A substrate-mountable holder comprising: a generally planar metal base having a centerline, said base having a plurality of openings to receive a plurality of fasteners; a generally symmetrical wireform having a pair of legs with a wireform portion therebetween, said portion welded to and extending outward from said base, each leg having a first segment extending parallel to said base and a second segment extending outwardly of said base wherein each leg has a distal end below a lower end of said base; wherein said base further comprises an additional opening with a tang projecting rearwardly from an edge of said additional opening; and further wherein said wireform portion covers said additional opening.
 2. A holder according to claim 1, wherein said first segment of each leg extends generally parallel to said centerline.
 3. A holder according to claim 1, wherein said first segment of each leg is angled with respect to said centerline.
 4. A holder according to claim 1, wherein said second segment of each leg extends generally linearly outwardly of said base.
 5. A holder according to claim 1, wherein said second segment has a radius of curvature.
 6. A holder according to claim 1, each of said legs comprising an upturned end.
 7. A holder according to claim 1, wherein said plurality of openings are configured to receive drywall fasteners each having a crest diameter of at least about ¼inch, said openings are generally aligned with said centerline and said weld is positioned between said plurality of openings.
 8. A holder according to claim 1, further comprising a second plurality of openings to receive a second plurality of fasteners.
 9. A holder according to claim 1, wherein said weld is a fillet weld.
 10. A holder according to claim 1, wherein said tang is stamped from said base.
 11. A holder according to claim 10, wherein said tang is formed from material removed to create said additional opening.
 12. A holder according to claim 1, wherein said base further comprises a rearwardly projecting tang, said tang located below a center of said base.
 13. A holder according to claim 1, wherein said portion is connected below a center of said base.
 14. A holder according to claim 1, wherein, when installed against a substrate, said base abuts said substrate.
 15. A substrate-mountable holder comprising: a generally planar metal base having a centerline, said base having a plurality of first openings to receive a plurality of fasteners, a second opening having at least one edge, and a tang extending rearwardly from said at least one edge; and a generally symmetrical wireform having a pair of legs with a wireform portion therebetween, said portion welded to and extending from said base, each leg having a first segment extending parallel to said base and a second segment extending outwardly of said base; wherein said wireform portion covers said second opening. 